The present invention generally relates to a HAMR head having not only a tapered core for the SSC, but additionally a secondary confinement material in the cladding surrounding the core taper. The secondary confinement material prevents diverging light from the laser diode from spreading so that the light is coupled into the core of the SSC. The secondary confinement material is a symmetric structure that surrounds the core of the SSC on all sides so that high conversion efficiency is achieved for short taper lengths.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A heat assisted magnetic recording device, comprising: a spot size converter, wherein the spot size converter includes: a first cladding; a secondary confinement material disposed on the first cladding; a second cladding disposed on the secondary confinement material; and a core disposed within the secondary confinement material such that the core is spaced from both the first cladding and the second cladding; a waveguide coupled to the spot size converter; and a near field transducer coupled to the waveguide.
2. The heat assisted magnetic recording device of claim 1 , wherein the first cladding has a first index of refraction, the secondary confinement material has a second index of refraction and the core has a third index of refraction and wherein the first, second and third indices of refraction are different.
3. The heat assisted magnetic recording device of claim 2 , wherein the third index of refraction is greater than the second index of refraction.
4. The heat assisted magnetic recording device of claim 3 , wherein the second index of refraction is greater than the first index of refraction.
5. The heat assisted magnetic recording device of claim 4 , wherein the core has a tapered shape.
6. The heat assisted magnetic recording device of claim 5 , wherein the secondary confinement material has an inverted tapered shape relative to the tapered shape of the core.
7. The heat assisted magnetic recording device of claim 6 , wherein the core is spaced from both the first cladding and the second cladding by an equal distance.
8. The heat assisted magnetic recording device of claim 7 , wherein the core comprises tantalum pentoxide.
9. The heat assisted magnetic recording device of claim 8 , wherein the secondary confinement material comprises silicon oxynitride.
10. The heat assisted magnetic recording device of claim 1 , wherein the core is spaced from both the first cladding and the second cladding by an equal distance.
11. The heat assisted magnetic recording device of claim 10 , wherein the core comprises tantalum pentoxide.
12. The heat assisted magnetic recording device of claim 11 , wherein the secondary confinement material comprises silicon oxynitride.
13. The heat assisted magnetic recording device of claim 1 , wherein the core comprises tantalum pentoxide.
14. The heat assisted magnetic recording device of claim 13 , wherein the secondary confinement material comprises silicon oxynitride.
15. A heat assisted magnetic recording device, comprising: a spot size converter, wherein the spot size converter includes: a first cladding; a secondary confinement material disposed on the first cladding, wherein the secondary confinement material is tapered; a second cladding disposed on the secondary confinement material; and a core disposed within the secondary confinement material such that the core is spaced from both the first cladding and the second cladding, wherein the core has a taper that is inverse to the taper of the secondary confinement material; a waveguide coupled to the spot size converter; and a near field transducer coupled to the waveguide.
16. The heat assisted magnetic recording device of claim 15 , wherein the core is spaced from both the first cladding and the second cladding by an equal distance.
17. The heat assisted magnetic recording device of claim 16 , wherein the core comprises tantalum pentoxide.
18. The heat assisted magnetic recording device of claim 17 , wherein the secondary confinement material comprises silicon oxynitride.
19. The heat assisted magnetic recording device of claim 15 , wherein the core comprises tantalum pentoxide.
20. The heat assisted magnetic recording device of claim 19 , wherein the secondary confinement material comprises silicon oxynitride.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
December 20, 2013
September 29, 2015
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